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Next Generation Very Large Array Memo No. 7 Science Working Group 2: 'Galaxy Ecosystems': The Matter Cycle in and Around Galaxies

Authors :
Leroy, Adam K.
Murphy, Eric
Armus, Lee
Brogan, Crystal
Donovan Meyer, Jennifer
Evans, Aaron
Todd Hunter
Johnson, Kelsey
Koda, Jin
Meier, David S.
Menten, Karl
Mills, Elizabeth
Momjian, Emmanuel
Ott, Juergen
Owen, Frazer
Reid, Mark
Rosolowsky, Erik
Schinnerer, Eva
Scoville, Nicholas
Spekkens, Kristine
Zee, Liese
Wong, Tony
Source :
NASA Astrophysics Data System

Abstract

This white paper discusses how a "next-generation" Very Large Array (ngVLA) operating in the frequency range 1-116 GHz could be a groundbreaking tool to study the detailed astrophysics of the "matter cycle" in the Milky Way and other galaxies. If optimized for high brightness sensitivity, the ngVLA would bring detailed microwave spectroscopy and modeling of the full radio spectral energy distribution into regular use as survey tools at resolutions of 0.1- 1 arcseconds. This wavelength range includes powerful diagnostics of density, excitation, and chemistry in the cold ISM, as well as multiple tracers of the rate of recent star formation, the magnetic field, shocks, and properties of the ionized ISM. We highlight design considerations that would make this facility revolutionary in this area, the foremost of which is a large amount of collecting area on ~km-length baselines. We also emphasize the strong case for harnessing the large proposed collecting area of the ngVLA for very long baseline applications as part of the core design. This would allow measurements of the three dimensional space motions of galaxies to beyond the Local Group and mapping of the Milky Way out to the far side of the disk. Finally, we discuss the gains from the proposed combination of very high resolution and sensitivity to thermal emission, which include observing the feeding of black holes and resolving forming protoclusters.<br />40 pages. For more information or to get involved see https://science.nrao.edu/futures/ngvla

Details

Database :
OpenAIRE
Journal :
NASA Astrophysics Data System
Accession number :
edsair.doi.dedup.....d1bdad730354e2e5e53b692731725daa